Quaise Energy

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The hunt for heat: Drilling the deepest holes on Earth

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✍️ Author: Normal Miller

🏢 Organizations: Quaise Energy, GA Drilling, Ozark Integrated Circuits, Eavor, University of Oxford


Currently only 32 countries in the world have geothermal power plants in operation. There are fewer than 700 power plants around the world, generating around 97 Terawatt hours (TWh) in 2023 between them. That is less than half the amount of electricity generated by solar in the US alone and far short of estimates for the potential contribution that geothermal could make to the global energy mix. Some estimate that geothermal could contribute around 800-1400TWh of electricity annually by the middle of the century with a further 3,300-3800TWh per year of heat.

One reason geothermal is not more widespread is the high upfront investment needed to extract that energy. But physically reaching it has also been beyond us so far. One major hurdle is that conventional rotary drills – even those tipped with diamond – are ill-equipped to excavate to the kind of depths needed to access these kinds of temperature. In the mysterious deep underworld of uncertain geology, extreme temperatures and huge pressures, drill components can fail frequently, while keeping holes from becoming blocked is a constant battle.

Quaise Energy, a spin-off from the Massachusetts Institute of Technology (MIT), for example, are aiming to drill holes as deep as 12 miles (20km) to access temperatures of 500C (932F) or more. To do so, they are turning to a tool that draws on years of research into nuclear fusion power. “While others are putting shovels in the ground, we’re putting microwaves in the ground for the first time,” says the company’s co-founder Matt Houde.

Slovakia-based GA Drilling, meanwhile, is exploring a different high-energy drill technology to bore into the Earth’s crust. It is using a pulse plasma drill, based on very short high energy electric discharges that disintegrate rock without causing it to melt. This avoids creating any viscous molten rock, which can be difficult to remove and can stop drill bits penetrating further. “Since the process is very swift with short shocks crumbling the rock, there isn’t time for melt to form – so the need to pull up and replace the bit is greatly reduced,” says Igor Kocis, chief executive and chairman of GA Drilling. “Five to eight kilometres (3-5 miles) is a target for our current development programme – and later 10km-plus,” he adds. “These depths will allow nearly universal access to geothermal power.”

Read more at BBC Future

Quaise Energy Raises $21 Million to Accelerate Terawatt-Scale Deep Geothermal Energy

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đź”– Topics: Funding Event

🏢 Organizations: Quaise Energy, Prelude Ventures, Safar Partners, Mitsubishi, MIT


Quaise Energy, the company unlocking terawatt-scale geothermal, announced the closing of a $21 Million Series A1 financing round led by Prelude Ventures and Safar Partners. Mitsubishi Corporation and Standard Investments are among several new investors participating in the round. This latest funding will enhance Quaise field operations and strengthen the company’s supply chain position, while ongoing product development will continue with pre-existing capital.

Quaise is uniquely positioned to harness deep geothermal energy worldwide at 3-20 km below the Earth’s surface. To achieve such a feat, the company has advanced a novel technique to vaporize rock using high-power microwaves in the millimeter range, based on more than a decade of research at MIT and recent testing at Oak Ridge National Laboratory. The original MIT experiments have now been scaled up 100x, with field demonstrations commencing this year.

Read more at Business Wire

Disruptive Drilling Technology To Help Geothermal Power The World

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✍️ Author: Elizabeth A. Thomson

🏢 Organizations: Quaise Energy


Quaise is working to that end. The company’s technique replaces the conventional drill bits that mechanically break up the rock with millimeter wave energy (cousins to the microwaves many of us cook with). Those millimeter waves (MMWs) literally melt then vaporize the rock to create ever deeper holes. The title of Houde’s WGC talk: “Rewriting the Limits for Deep Geothermal Drilling: Direct Energy Drilling Using Millimeter Wave Technology.”

Read more at Collaborative Fund Blog